Mold having heating and vibration means



April 14, 1970 HOFFMAN 3,506,062

MOLD HAVING HEATING AND VIBRATION MEANS Filed March 14. 1967 I 52 30 I I 32 United States Patent 3,506,062 MOLD HAVING HEATING AND VIBRATION MEANS Robert Hoffman, 17 Copper Beech Place, Merrick, N.Y. 11566 Continuation-impart of application Ser. No. 405,139, Oct. 24, 1964. This application Mar. 14, 1967, Ser. No. 622,955

Int. Cl. B22d 27/04, 27/08 US. Cl. 164-260 3 Claims ABSTRACT OF THE DISCLOSURE An apparatus for ultrasonic casting of metals comprising a mold having a cavity for receiving hot metallic material. An ultrasonic transducer is arranged for imparting ultrasonic vibrations and is connected to the mold. Heating means are disposed about the mold for simultaneously imparting heat to the mold and metallic material in the cavity while the transducer is vibrating the mold means and the metallic material. The heating means include a spiral heating coil formed in half sections which are hingedly secured to each other. Latch means are provided for holding said half sections about the mold. The invention further contemplates methods of casting various materials utilizing ultrasonic vibrations.

The present invention relates to the art of casting metals, and more particularly to appratus for carrying out novel methods for the ultrasonic casting and treating of metallic matter such as gold, silver, platinum, etc.

and alloys thereof. This application is a continuation-inpart of application Ser. No. 405,139, filed Oct. 20, 1964, now Patent No. 3,338,294 issued Aug. 29, 1968, for Method and Apparatus for Casting Metals.

In the past various procedures and methods have been devised and used in attempts to prevent incomplete casting, miscasting and to reduce gas porosity in metallic castings, and to insure dense castings which completely fill the mold and eliminate voids inside the casting. T 0 accomplish this purpose, molds have been devised which permit the application of pressure, or the inclusion of escape holes, or the use of porous investment material to permit escape of entrapped gases or the use of centrifugal forces to compact the denser metal. However, this has been only partially successful because remote gas pockets are usually so entrapped that the gas cannot be liberated. No method of casting yet devised permits the heat treatment of the casting to proceed within the mold while simultaneously acting to remove gas inclusion and render the casting more dense.

Accordingly, it is an object of the invention to provide an apparatus for carrying out methods for making dental, jewelry and other fine castings, which will to a higher degree eliminate gas pockets in the casting and reduce gas porosity, while also serving to increase the density of the castings and substantially increase the strength of the castings.

A further object of the invention is to provide for better appearing castings of measurably better physical characteristics by not only subjecting the casting to a suitably prolonged heat treatment as necessary, but also vibrating the casting at ultrasonic frequencies so as to compact and density the casting, render the casting more homogeneous, increase the tensile and yield strength of the casting, conform the casting more clearly to the contours of the mold in which the material is being cast, and reduce gas porosity.

An additional object of the invention is to provide an easy method and a simple apparatus which will permit Patented Apr. 14, 1970 the successive casting in a single mold of more than one metal while assuring diffusion and cohesive bonding of the successive diverse layers of metallic material to an extent heretofore not possible to be achieved.

A yet further object of this invention resides in the provision of an apparatus for facilitating the casting of metals in layers in a manner so that the different metals used in the different layers diffuse with each other at the junction of the layers so as to provide for cohesive bonding without substantial alloying or intermixing the re spective metals.

The concept of this invention features an apparatus for the ultrasonic casting of metals which includes mold means having a cavity for'receiving metallic material. The mold means may be in the form of a unitary body of a suitable investment material, or it may be desired to use complementary mold halves. An ultrasonic transducer capable of imparting ultrasonic vibrations in the order of 20,000 cycles per second or greater as best determined for the desired casting material and mold dimensions is connected to the same mold means. Bloc-- trical heating means in the form of a heating coil or the like is removably disposed about the mold means. This heating coil may be used in connection with mold halves to hold the mold halves in an assembled position while imparting heat to the mold and to the metallic material being cast in the cavity of the mold while the transducer is simultaneously vibrating the mold means and the metallic material, thereby increasing the density of the metallic matter and reducing gas porosity while also causing a better casting to be achieved.

Another of the features of the invention is the concept of providing heating means for simultaneous operation with ultrasonic vibratory means.

Another feature of the invention resides in the concept of using the same heating means for heating the mold and the metallic material to hold the mold in an assembled condition.

Still further objects and features of this invention reside in the provision of a method and apparatus for easting metals including the concept of casting diiferent metals in layers which is simple to employ, efficient in operation, and especially adapted for uses in jewelry foundings, jewelry manufacture, dentistry, and for making other similar fine castings.

These, together with the various ancillary objects and features of the invention which will become apparent as the following description proceeds, are attained by this method 'and apparatus for ultrasonic casting of metals, preferred embodiments of the apparatus being illustrated in the accompanying drawings, by Way of example only, wherein:

FIG. 1 is a plan view of an embodiment of an apparatus for casting metals constructed in accordance with the concepts of the present invention;

FIG. 2 is a vertical sectional view taken along the plane of line 2-2 in FIG. 1, illustrating details of construction of the mold and heating coil and illustrating in elevation the base in which the transducer is mounted;

FIG. 3 is an enlarged detail view looking along the arrows of line 33 in FIG. 2, illustrating in particular means for securing a heating coil in position; 0

FIG. 4 is a plan view of a modified embodiment of the heating coil arranged in hinged half sections;

FIG. 5 is a sectional detail view of the modified form of the invention employing in conjunction with a suitable metal ring for holding the investment material;

FIG. 6 is a sectional detail view of a modified embodiment of the invention which employs two complementary mold sections with the heating coil holding the mold sections in assembled condition;

FIG. 7 is an elevational view looking alongithe plane of Hire 77 in FIG. 4, illustrating the hinge means joining the heating coil sections; and

FIG. 8 is an elevational view looking along the plane of line 88 in FIG. 7, illustrating the securing means used for holding the heating coil sections together; and

FIG. 9 is a sectional view similar to FIG. 2, but shown arranged in a substantially horizontal position.

With continuing reference to the accompanying drawings, wherein like reference numerals designate similar parts throughout the various views, reference numeral 10 generally designates an apparatus constructed in accordance with the concepts of the present invention for use in the ultrasonic casting of metallic material. This apparatus 10 includes a base 12 of any suitable construction, it being;

recognized that this apparatus may be formed of different materials and in different sizes and shapes as may be desired. Mounted within the base, not shown, is a conven tional ultrasonic transducer. This transducer may be a mechanical transducer or may be and preferably is a magnetostrictive transducer capable of imparting vibrations upon the mold 14 in the order of 20,000 cycles per second and preferably thereabove.

The base 12 may have a suitable coupling device 16 designed to couple the ultrasonic energy from base 12 to the mold. The coupling device 16 may be provided with a suitable depression for receiving a support ring 18 in which the mold 14 may be disposed. The mold 14 may be integrally formed of one piece and the mold material utilized may be any suitable investment material. The mold 14 as shown in FIG. 2 employs two half mold sections 20 and 22 which together form a mold cavity 24 terminating in a sprue 26. The cavity 24 is of the shape of the desired casting, and molten material is poured directly into the cavity 24. Of course, as is shown in FIG. 5, a metallic ring having investment material 32 of an integral body contained therein may be utilized and the investment ring itself may be provided with a bottom 34 if such is desired.

In the form of the invention as is shown FIGS. 1 through 3, a spiral electrical heating ring 36 is disposed about the mold 14 and may be held in place by tightening screw 38 or any other suitable fastening means. Of course, it is within the concept of this invention to use other heating means such as infrared heating means, radiofrequency induction means, direct heat through gas torch or the like as may be desired. The heating coil may be connected through a suitable conventional electric plug, switch, and timer 40 to a suitable source of electrical power schematically designated at 42. The precise controls and electrical heating connections for the electric heating coil 46 are optional.

The heating coil 46 is preferably in the form of suitable bands of iron or steel preferably arranged in a spiral connection and fitting tightly about the mold 14. As shown in FIG. 4, the spiral coil may be formed out of a pair of heating coil half sections 44 and 46 held together by suitable porcelain rods 47 or other insulators, and a series of suitable hinges 48 may be used for hingedly connecting the half spiral heating coil sections 44 and 46 together. Suitable latching means are shown in FIG. 8 and indicated at 50 serve to hold the heating coil in a closed position about the mold.

When a metallic ring such as shown at 32 in FIG. 5 is utilized, the heating coils are, of course, suitably insulated as at 52 from the metallic ring. In order to retain applied heat on the mold, a hinged cover 72 may be hingedly secured by hinges 70 to the mold 14. This cover may be provided with suitable heating elements 74.

As is shown in FIG. 6, the heating coil half sections 44 and 46 may clampingly hold the mold half sections and 62 in an assembled condition.

Procedures have been devised for utilizing this apparatus to provide for high density castings of a predetermined metallic material wherein the casting quality is substantially reduced. In carrying out these procedures, the material ?being used is raised above its melting point in sprue 26 of the apparatus 10. Simultaneously, the transducer, not shown, within the base and connected through the coupling device 16 to the mold 14 is actuated subjecting the mold to vibrations in the order of 20,000 cycles per second. An example of a silver casting of increased tensile strength and increased yield point and a fine quality is as follows:

i 7 EXAMPLE I 1 e After the apparatus has been arranged, a suitable amount of silver to form the casting was heated approximately 25 above its melting point of 960.5 C. At the same time, the heating coils were excited until their external temperature was measured at 1000 C. Simultaneously, the transducer was excited causing ultrasonic vibrations to be applied to the mold at 22,000 cycles per second. The casting was subjected to such heat and vibrations for a period of one and one-half minutes, after which time the heat in the coil was removed. A high quality casting of reduced gas porosity was obtained.

It has been found that this apparatus may be employed in a novel method of casting difierent material in layers. The new method is especially adapted for dental and jewelry castings and includes the concept of separately heating two or more differing metals to their liquid states. The first metal shown in FIG. 2 at A, and which for example may be platinum, is first cast into the mold. The

. mold is simultaneously subjected to vibrations through use of the transducer and to heat from an external source by actuating the heating coils. Then, a second material, such as gold, as indicated at B is cast in layer-like rel ation on top of the material A. The mold is continuously subjected to the ultrasonic vibrations though the external temperature of the heating coil may be reduced. Then, a third layer of another metal C is cast on top of the metal B with heat and vibrations still being simultaneously applied. This achieves a cohesive bonding of the various layers of metals without substantial alloying or intermixing of the first and second metals, or of the second and third retals.

An example of the foregoing method is as follows:

EXAMPLE II Platinum is heated approximately 50 above its melt ing point of 1773.5 C. While it is in the molten state, it is cast into the mold and vibrations on the order of 25,000 cycles per second are continuously applied on the mold and the platinum material therein for a period of one and one-half minutes. Heat is simultaneously applied from a source externally of the mold by means of an electric heating coil having an external surface temperature of 1800 Approximately one minute is permitted to elapse and the amount of current in the heating coil is reduced so that its outside temperature will then be 1100 C. At that time, gold which has been heated to approximately 1100 C. is then cast to form a layer on top of the platinum with the transducer still imparting vibrations in the order of 25,000 cycles per second. After two minutes, a layer of silver is then cast directly on the gold and the vibrations and heat are permitted to continue. A cohesively bonded high quality casting of three metals in layers was achieved.

It is to be recognized that any suitable rheostat or potentiometer may be used to control the amount of heat to the heating coil 36, the precise control means being selected as desired.

The present invention may be used for casting ceramic material in a mold by subjecting the mold and material to ultrasonic vibrations, and thereafter fusing the casting by application of heat through use of the heating coils.

The present invention permits the production of castings of combinations of metals and ceramics and the like in one unit at one time.

It is to be noted that both horizontal and vertical vibrations may be imparted to the casting mold without aifecting the efficiency of the molding method, as the direction of the vibration will not affect the casting process.

A latitude of modification, substitution and change is intended in the foregoing disclosure, and in some instances, some features of the invention will be employed without a corresponding use of other features. Accordingly, it is appropriate that the appended claims be construed broadly and in a manner consistent with the spirit and scope of the present invention.

I claim:

1. An apparatus for casting of metals comprising mold means having a cavity for receiving metallic material, a transducer for imparting vibrations connected to said mold means, and means disposed about said mold means for imparting heat to said mold means, said transducer imparting ultrasonic vibrations to said mold means, said heating means simultaneously imparting heat to said mold means and metallic material in said cavity While said transducer is vibrating said mold means and the metallic material, said heating means including a spiral heating coil, said coil being formed in half sections, said half sections being hingedly secured to each other, and latch means for holding said half sections about said mold means.

2. An apparatus for casting of metals comprising mold means having a cavity for receiving metallic material, a transducer for imparting vibrations connected to said mold means, and heating means disposed about said mold means for imparting heat to said mold means, said mold means including a pair of complementary mold halves defining a cavity for receiving the metallic material, said transducer imparting ultrasonic vibrations to said mold means, said heating means including a heating coil removably disposed about said mold means for clampingly holding said mold halves in position and for simultaneously im- UNITED STATES PATENTS 2,440,321 4/1948 Bacon 164338 X 1,115,678 11/1914 Kaiser 164-338 X 1,756,325 4/1930 Williams 164260' X 2,083,022 6/1937 Hoke 164-50 X 2,344,754 3/1944 Vang 26423 2,384,215 9/1945 Toulmin 264-23 3,298,065 1/1'967 Pendleton 25415 FOREIGN PATENTS 644,189 7/ 1962 Canada.

OTHER REFERENCES Acta Physicochirnica U.R.S.S., Linfiuence des ondes ultra-acoustiques sur le procs de solidification des metaux fondus, vol. III, No. 6, pp. 939-944, 164-49 Literature.

J. SPENCER OVERHOLSER, Primary Examiner R. SPENCER ANNEAR, Assistant Examiner US. Cl. X.R. 25-41 

